Power transmission system of an automobile

ABSTRACT

A generator use gear enable to rotate freely against an input shaft of a transmission mechanism for altering a rotation number of an engine and a clutch mechanisms in which the input shaft of the transmission mechanism and the generator use gear are rotated together with are provided between the engine and the transmission mechanism. Further, on an extension line of the input of the transmission mechanism and to a rear portion of the transmission mechanism, an electric motor is provided. Accordingly, a compact size power transmission system of an automobile can be attained.

BACKGROUND OF THE INVENTION

[0001] The present invention relates to a power train system structureof an automobile which comprises of an engine, an electric power means(herein-after, it is called as an electric motor which is mainly used asa drive use, it s called as a generator which is mainly used as agenerator and an engine starting use, and a motor generator which hassame used frequency degree as a drive use and as a generation use), andin particularly to a power transmission system in which a compact sizeof the power train system of an automobile can be attained.

[0002] As a prior art of a power train system power transmission systemin which a compact size and a light weight structure power train systemis devised, there is Japanese application patent laid-open publicationHei 10-217779. In this Japanese application patent laid-open publicationHei 10-217779, a hybrid one body power transmission system is stated,such a power transmission system comprises of one motor generator, agear transmission mechanism, and a clutch mechanism.

[0003] In this power transmission system, the transmission mechanismhaving the motor generator and the clutch mechanism is formed as onebody in a housing of the power transmission system, accordingly it ispossible to obtain a compact size power transmission system.

[0004] According to this Japanese application patent laid-openpublication Hei 10-217779, in the transmission mechanism having the onemotor generator and the clutch mechanism, it is possible to obtained thecompact size power transmission system.

[0005] Further, in a power transmission system in which a further fuelconsumption reduction and a further power performance improvement can berealized and further an electric motor is necessary, it is difficult tocarry out an arrangement of the above stated elements, as a result itcan not avoid a formation of a large size power transmission system.

SUMMARY OF THE INVENTION

[0006] An object of the present invention is to provide a powertransmission system in which a compact size power transmission systemcomprised of two electric power means (a generator and an electricmotor) and a clutch mechanism can be attained.

[0007] From an aspect of an earth environment problem, an establishmentof a hybrid automobile control system in which a wide reduction of aconsumption of an automobile can be expected becomes important. In theabove stated hybrid automobile control system, by an employment of anelectric motor, it is possible to operate an engine at a high efficiencyarea, however since an electric power means such as a generator ismounted, there is a limitation for a compact size hybrid automobilecontrol system.

[0008] To solve the above stated problems, according to a powertransmission system of an automobile of the present invention, the powertransmission system of the automobile comprises a generator use gearenable to rotate freely against an input shaft of a transmissionmechanism and a clutch mechanism enable to rotate together with an inputshaft of said transmission mechanism and a generator use gear, and saidgenerator use gear and said clutch mechanism are provided between anengine and said transmission mechanism.

[0009] In concretely the present invention provide a following powertransmission system of an automobile.

[0010] A power transmission system of an automobile having an engine, agenerator driven by an output of said engine, a battery charged by ageneration output of said generator, an electric motor driven by adischarge output of said battery, and a transmission mechanism providedat a rear portion of an output shaft of said engine and for at leastaltering a rotation number of said engine, the power transmission systemcharacterized in that the power transmission system comprises further agenerator use gear enable to rotate freely against an input shaft ofsaid transmission mechanism and a clutch mechanism enable to rotatetogether with said input shaft of said transmission mechanism and saidgenerator use gear, and said generator use gear and said clutchmechanism are provided between said engine and said transmissionmechanism.

[0011] Preferably, an output of said generator is arranged substantiallyin parallel against an input shaft of said transmission mechanism.

[0012] Preferably, at a rear portion of said transmission mechanism onan input shaft extension line of said transmission mechanism saidelectric motor is provided and an output of said electric motor istransmitted to an output of said transmission mechanism.

[0013] Preferably, said generator is arranged in a housing of saidtransmission mechanism.

[0014] Preferably, a high speed gear train of said transmissionmechanism is arranged at a side of said engine from a low speed geartrain of said transmission mechanism.

[0015] To solve the above stated problems, according to a powertransmission system of an automobile of the present invention, anelectric motor is arranged substantially orthogonal to an input shaft ofa transmission mechanism.

[0016] In concretely, in a power transmission system of an automobilehaving an engine, a generator driven by an output of said engine, abattery charged by a generation output of said generator, an electricmotor driven by a discharge output of said battery, and a transmissionmechanism provided at a rear portion of an output shaft of said engineand for at least altering a rotation number of said engine, the powertransmission system characterized in that said electric motor isarranged substantially orthogonal to an input shaft of said transmissionmechanism.

[0017] Preferably, an output shaft of said transmission mechanism isprovided substantially in parallel to an input shaft of saidtransmission mechanism, and said input of said transmission mechanismand said output of said transmission mechanism are connected togetherwith substantially by a gear pair with intersecting axes.

BRIEF DESCRIPTION OF THE DRAWINGS

[0018]FIG. 1 is a construction view of a FF hybrid automobile use powertransmission system of one embodiment according to the presentinvention;

[0019]FIG. 2 is an appearance view of a power train including the powertransmission system shown in FIG. 1;

[0020]FIG. 3 is a construction view in which an oil pressure pump isdriven by an electric motor;

[0021]FIG. 4 is a construction view of a hybrid automobile use powertransmission system of another embodiment according to the presentinvention; and

[0022]FIG. 5 is a power performance graph according to the presentinvention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS OF THE PRESENT INVENTION

[0023] Herein-after, a power transmission system of an automobile of oneembodiment according to the present invention will be explained indetail referring to the drawings.

[0024]FIG. 1 is a construction view of a FF (a front engine, a frontdrive) hybrid automobile use power transmission system of one embodimentaccording to the present invention. As shown in FIG. 1, to a hybridautomobile use power transmission system, an engine starting clutch 7 isprovided.

[0025] Such the engine starting clutch 7 comprises a connection part 1,a clutch plate supporting member 2 which is connected to the connectionpart 1 to a crank shaft (not shown in figure) of an engine, an outputshaft 3 of a transmission means, a clutch plate 4 which is connected tothe input shaft 3 of the transmission means, a clutch cover 5, and aplate spring member 6.

[0026] A release of the engine starting use clutch 7 is practicedaccording to an oil pressure which is generated by an oil pressure pump9 which is driven using a generator 8. When the oil pressure does notcatch properly, the engine starting use clutch 7 is fastened by a springforce of the clutch cover 5.

[0027] In an operation of the release of the engine starting use clutch7, at first a generated oil pressure passes through an oil pressure pipeconduit 10 and is introduced into an oil pressure chamber 11. Accordingto the above operation, a piston 12 is moved toward a left direction inFIG. 1 and a clutch releasing member 13 is pushed out and then the platespring member 6 is operated.

[0028] The plate spring member 6 operates to open the clutch cover 5 anda push-out force of the clutch plate 4 becomes small and then therelease of the engine starting use clutch 7 can be carried out. Herein,as the drive of the engine starting use clutch 7 the oil pressure isemployed however it can apply an electric actuator such as a motor.

[0029] The engine starting use clutch 7 can realize a smooth torquecharacteristic during the engine starting and also can apply to ensure astarting performance according to the engine when an electric systemgets out of order (for example, a motor trouble).

[0030] Further, as another object in the engine starting use clutch 7,the engine starting use clutch 7 is made as a semi-clutch condition andthen the torque of the engine is transmitted, accordingly a powerperformance according to the engine during the starting increase, anoutput of the electric motor is made small and a compact size and alight weight structure electric motor can be realized.

[0031] A generator 8 is arranged in a transmission mechanism housing andas a construction the generator 8 is connected to the transmissionmechanism input shaft 3 through a generator gear pair 15, a generatorsleeve 16, a generator hub 17, and a gearing gear 18.

[0032] In an inner side of the generator hub 17, a groove (not shown infigure) is provided, such the groove is meshed with plural grooves 19 ofthe transmission mechanism input shaft 3. The generator 17 can move toan axial direction of the transmission mechanism input shaft 3. However,a move to a rotation direction of the transmission mechanism input shaft3 is limited. Herein, when the generator sleeve 16 is meshed with bothof the generator hub 17 and the gearing gear 18, a torque transmissionbetween the generator 8 and the transmission mechanism input shaft 3 canbe carried out.

[0033] When the generator sleeve 16 is meshed with only the generatorhub 17, the torque transmission between the generator 8 and thetransmission mechanism input shaft 3 can not be carried out. To carryout the move of the generator sleeve 16, a linear actuator is applied,such a linear actuator comprises a lever 21 to which a nut 20 isprovided and a bolt which rotates according to a motor 23.

[0034] The above linear actuator does not move because the bolt 22 ismeshed with a screw portion of the nut 20 against an anti-force from thegenerator sleeve 16. As a result, an energy (an electric powerconsumption amount) during a fixing of the above generator sleeve 16becomes unnecessary. Accordingly, a fuel consumption reduction of theautomobile can be improved.

[0035] As stated in above, an output shaft 14 of the generator 8 and thetransmission mechanism input shaft 3 are arranged substantially inparallel, the power transmission from the generator 8 to the engine canbe practiced. In this case, an shaft length between from the engine andgenerator gear pair 15 becomes short, a shaft vibration during the driveof the generator 8 can be restrained.

[0036] Further, since an installation space for the generator 8 can beformed to coincide with a starter installation portion of theconventional transmission apparatus (an electric motor is not providedin a transmission means), the installation of the generator 8 can berealized without a wide remodeling of the power transmission system,accordingly a compact size power transmission system of the automobilecan be improved.

[0037] Next, the transmission mechanism will be explained. Thetransmission mechanism according to the present invention comprises ahigh speed use engine side gear 25 having a gearing gear 24, a low speeduse engine side gear 27 having a gearing gear 26, and a hub 28 and asleeve 29 which connect directly the high speed use engine side gear 25,the low speed use engine side gear 27 and the transmission mechanisminput shaft 3.

[0038] The stoppers 30 and 31 are provided to not move the high speeduse engine side gear 25 and the low speed use engine side gear 27 towardthe transmission mechanism input shaft 3.

[0039] In an inner side of the hub 28, a groove (not shown in figure) isprovided, such the groove is meshed with plural grooves 19 of thetransmission mechanism input shaft 3. This hub 28 can move to the axialdirection of the transmission mechanism input shaft 3. However, a moveto a rotation direction of the transmission mechanism input shaft 3 islimited. Accordingly, a torque which is outputted from the engine istransmitted to the hub 28 and the sleeve 29.

[0040] To transmit the torque from the engine to the high speed useengine side gear 25 and to the low speed use engine side gear 27, it isnecessary to move the sleeve 29 to the axial direction of thetransmission mechanism input shaft 3 and to connect directly the gearinggear 24 or 26 and the hub 28.

[0041] To the gearing gear 24 or 26 and the hub 28, a same groove isprovided and at an inner side of the sleeve 29 another groove (not shownin figure) is provided, and this another groove is meshed with the hub28. To move the sleeve 29, a linear actuator is applied, such a linearactuator comprises a lever 34 to which a nut 33 is provided and a bolt36 which rotates according to a motor 35.

[0042] The drive of the linear actuator is similar to that of the abovestated linear actuator and an explanation thereof will be omitted.

[0043] Next, the high speed use engine side gear 25 is meshed with ahigh speed use output shaft gear 38 which is connected directly to thetransmission mechanism output shaft 37. The low speed use engine sidegear 27 is meshed with a low speed use output shaft gear 39 which isconnected directly to the transmission mechanism output shaft 37.Further, the high sped use output gear 38 is meshed with a differentialgear 40 and then the torque which is outputted from the powertransmission system is transmitted to the tires of the automobile.

[0044] Herein, the reason why the high speed use engine side gear 25 isarranged to the engine side from the low speed use engine side gear 27will be explained. In a case where the automobile runs according to thehigh speed use engine side gear 25, since an engine rotation number islow, a torque fluctuation between the engine cylinders is transmitted tothe transmission mechanism input shaft 3 and then a twist vibration inthe transmission mechanism input shaft 3 generates.

[0045] Accordingly, to restrain the above twist vibration, when thetorque is transmitted to the transmission mechanism output shaft, it isprofitable to have a shorter length of the transmission mechanism inputshaft 3 from the engine to the torque transmission gear.

[0046] Next, an arrangement of the electric motor 41 will be explained.The electric motor 41 is arranged at an extension line of thetransmission mechanism input shaft and at a rear portion of thetransmission mechanism. An electric motor gear 43 is meshed with anelectric motor output shaft gear 44 which is provided to thetransmission mechanism output shaft 37.

[0047] A reason why the electric motor 41 is arranged at the extensionline of the transmission mechanism input shaft 3 is that it can beutilized validly the space of the conventional manual transmissionmeans. In other words, when using the power transmission systemaccording to the present invention the power transmission similar tothat of the conventional vehicle is intended to realize, it is possibleto perform a torque assistance between the electric motor 41 and thegenerator 8, a transmission mechanism section can be formed fully withtwo gear train degree.

[0048] As a result, since the gear train from three gear train to fivegear train can be deleted, at an empty space the electric motor 41 canbe arranged.

[0049] Next, a lubricating manner of the above stated gear will beexplained. In the oil pressure pump 9, a low pressure oil for alubricating use is generated. This low pressure oil passes through alubricating use pipe 45 and is led to an upper side of each of the geartrains and accompanying with a rotation of the gear this low pressureoil is supplied to a lower side gear successively.

[0050] Further, the oil which has used for the lubrication is collectedin an oil pan 49 and the collected oil is sucked by the oil pressurepump 9 through a filter means (not shown in figure) and an oilintroducing conduit 52.

[0051] A case of the power transmission system comprises separately afront case 46, a middle case, and a rear case 48 and they are fixedusing screw means (not shown in figure). The above stated generator 8,the gear trains, and the electric motor 41 etc. are assembled from acondition where the above stated cases have been decomposed.

[0052] Further, between the rotary body such as the gear trains etc. andthe case, between the gear trains, ball bearing means (similar to thestopper 30) are provided and then the fuel consumption aggravationaccording to an increase by the friction loss can be restrained.

[0053] Further, in the middle case 47, a generator use rotation sensor50 for detecting an output shaft rotation number of the generator 8 andan electric motor use rotation sensor 51 for detecting an output shaftrotation number of the electric motor 41 are provided.

[0054] Since the electric motor use rotation sensor 51 detects pulses ofthe electric motor use output shaft gear 44, using the electric motoruse rotation sensor 51 to request the output shaft rotation number ofthe electric motor, it is necessary to convert using a gear ratio withthe electric motor gear 43. Further, the electric motor use rotationsensor 51 can apply to the vehicle speed.

[0055]FIG. 2 shows an appearance view of a power train including thepower transmission system shown in FIG. 1. To the engine 52 the powertransmission system 53 is provided. An upper side of this powertransmission system 53 the generator 8 is installed and according to thegenerator 8 the oil pressure pump 9 is driven.

[0056] Further, in an interior portion rear portion of the powertransmission system 53 the electric motor 41 is provided. Accordingly,with the above stated construction, a hybrid automobile use powertransmission system similar to the conventional manual transmissionapparatus can be realized.

[0057]FIG. 3 is a construction view in which the oil pressure pump isdriven by the electric motor. To an output shaft 42 of the electricmotor 41 an oil pressure pump 54 is provided. In the power transmissionsystem according to the present invention, during the vehicle running,the output shaft 42 of the electric motor 41 rotates necessarily.

[0058] During a coasting running such as a descending road (a down sloperoad) without the supply of the electric power to the electric motor 41,since it is possible to drive the oil pressure pump 54, it is possibleto perform the oil pressure generation in which the reduction energy ofthe vehicle is utilized. Accordingly, since it is unnecessary to producethe oil pressure generating energy, therefore the fuel consumptionreduction of the automobile can be attained.

[0059]FIG. 4 is a construction view showing a hybrid automobile usepower transmission system of another embodiment according to the presentinvention. AS show in FIG. 4, in this power transmission system, sincethere is no space at the rear portion of the transmission mechanisminput shaft 3 which is connected directly to a crank shaft (not shown infigure) of the engine 52 and it is impossible to arrange the electricmotor.

[0060] In the above stated power transmission system, from an aspect ofthe space it is the optimum in which at a lower portion of thetransmission mechanism input shaft 3 an electric motor 56 is providedand according a compact size power transmission system can be attained.In this case, to the transmission mechanism output shaft 37 and anoutput shaft of the electric motor 56 a gear pair with intersecting axes57 is provided and at a position where the transmission mechanism inputshaft 3 and the transmission mechanism output shaft 37 are orthogonalthe electric motor 56 is arranged.

[0061] Accordingly, an output of the electric motor 56 is transmitted asa torque to the differential gear 40 through the gear pair withintersecting axes 57 and the high speed use output shaft gear 38.

[0062]FIG. 5 is a power performance graph according to the presentinvention. In the power train according to the present invention, in anarea A the it is the running in which the electric motor and thegenerator are combined or only using the electric motor, and in an areaB it is the running in which to a drive force of the area A the engineoutput is added. In an area C, it shows a drive force in which to thedrive forces of the area A and the area B the electric motor output isadded.

[0063] The maximum drive force is one to which all of the above stateddrive forces of the three areas A, B, Care added. Herein, a portionenclosed with a real line is an area which is used according to a fuelconsumption estimation operation mode (for example, 10-15 modes). Inthis area to attain the fuel consumption reduction, it is necessary toselect a better efficiency according to the drive by the electric motorand according to the drive by the engine.

[0064] A hybrid automobile using the power transmission system accordingto the present invention, a drive force distribution shown in FIG. 5 isoptimum. Namely, in an operation area where the engine rotation numberis low (less than 1400 rpm) and the engine torque is small (less than ahalf of the maximum torque), the fuel consumption of the automobile canbe reduced according to the running using the electric motor and anoperation area except for above the fuel consumption can be reducedaccording to the running using the engine.

[0065] Further, the gear ratio between the above stated high speed usegear train and the above stated low speed use gear train is set tochange over at a vicinity of the engine rotation number of 1400 rpm. Atthe starting time of the engine, it is important that engine startinguse clutch 7 is operated and the starting can be carried out smoothly.

[0066] When the engine starting clutch 7 is not provided, the rotationnumber of the transmission mechanism input shaft 3 and the rotationnumber of the transmission mechanism output shaft 37 are coincided andthe sleeve 29 is moved and then the low speed use gear is fastened.

[0067] According to the present invention, since the power transmissionsystem is constituted that in which the conventional manual transmissionmeans is made as a base, the transmission use gear train can be deletedand to the deleted space the electric motor is provided and further inwhich to the conventional stator installation space the generator isarranged, the generator and the electric motor can be received in theconventional manual transmission means. Accordingly, a compact sizepower transmission system of a hybrid automobile can be attained.

What is claimed is:
 1. In a power transmission system of an automobilehaving an engine, a generator driven by an output of said engine, abattery charged by a generation output of said generator, an electricmotor driven by a discharge output of said battery, and a transmissionmechanism provided at a rear portion of an output shaft of said engineand for at least altering a rotation number of said engine, the powertransmission system characterized in that the power transmission systemcomprises further a generator use gear enable to rotate freely againstan input shaft of said transmission mechanism and a clutch mechanismenable to rotate together with said input shaft of said transmissionmechanism and said generator use gear, and said generator use gear andsaid clutch mechanism are provided between said engine and saidtransmission mechanism.
 2. A power transmission system of an automobileaccording to claim 1, characterized in that an output of said generatoris arranged substantially in parallel against an input shaft of saidtransmission mechanism.
 3. A power transmission system of an automobileaccording to claim 1, characterized in that at a rear portion of saidtransmission mechanism on an input shaft extension line of saidtransmission mechanism said electric motor is provided and an output ofsaid electric motor is transmitted to an output of said transmissionmechanism.
 4. A power transmission system of an automobile according toclaim 1, characterized in that said generator is arranged in a housingof said transmission mechanism.
 5. A power transmission system of anautomobile according to claim 1, characterized in that a high speed geartrain of said transmission mechanism is arranged at a side of saidengine from a low speed gear train of said transmission mechanism.
 6. Ina power transmission system of an automobile having an engine, agenerator driven by an output of said engine, a battery charged by agenerator output of said generator, an electric motor driven by adischarge output of said battery, and a transmission mechanism providedat a rear portion of an output shaft of said engine and for at leastaltering a rotation number of said engine, the power transmission systemcharacterized in that said electric motor is arranged substantiallyorthogonal to an input shaft of said transmission mechanism.
 7. A powertransmission system of an automobile according to claim 6, characterizedin that an output shaft of said transmission mechanism is providedsubstantially in parallel to an input shaft of said transmissionmechanism, and said input of said transmission mechanism and said outputof said transmission mechanism is connected together with substantiallyby a gear pair with intersecting axes.